Citation: Rf. Rogers et Jm. Fritsch, Surface cyclogenesis from convectively driven amplification of midlevel mesoscale convective vortices, M WEATH REV, 129(4), 2001, pp. 605-637
Citation: Ag. Laing et Jm. Fritsch, The large-scale environments of the global populations of mesoscale convective complexes, M WEATH REV, 128(8), 2000, pp. 2756-2776
Citation: Rf. Rogers et al., A simple technique for using radar data in the dynamic initialization of amesoscale model, M WEATH REV, 128(7), 2000, pp. 2560-2574
Citation: Gh. Bryan et Jm. Fritsch, Discrete propagation of surface fronts in a convective environment: Observations and theory, J ATMOS SCI, 57(13), 2000, pp. 2041-2060
Citation: Gh. Bryan et Jm. Fritsch, Diabatically driven discrete propagation of surface fronts: A numerical analysis, J ATMOS SCI, 57(13), 2000, pp. 2061-2079
Authors:
Wotling, G
Bouvier, C
Danloux, J
Fritsch, JM
Citation: G. Wotling et al., Regionalization of extreme precipitation distribution using the principal components of the topographical environment, J HYDROL, 233(1-4), 2000, pp. 86-101
Citation: Ag. Laing et al., Contribution of mesoscale convective complexes to rainfall in Sahelian Africa: estimates from geostationary infrared and passive microwave data, J APPL MET, 38(7), 1999, pp. 957-964
Citation: Jl. Hilliker et Jm. Fritsch, An observations-based statistical system for warm-season hourly probabilistic forecasts of low ceiling at the San Francisco International Airport, J APPL MET, 38(12), 1999, pp. 1692-1705